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/* ===================================================================== */
/*! @file
 *  This file contains a dynamic register/memory operand pattern profiler
 */


#include "pin.H"
#include <list>
#include <iostream>
#include <cassert>
#include <iomanip>
#include <fstream>
#include <stdlib.h>
#include <string.h>


/* ===================================================================== */
/* Commandline Switches */
/* ===================================================================== */

KNOB<string> KnobOutputFile(KNOB_MODE_WRITEONCE,        "pintool",
    "o", "ldstmix.out", "specify profile file name");
KNOB<BOOL>   KnobNoSharedLibs(KNOB_MODE_WRITEONCE,      "pintool",
    "no_shared_libs", "0", "do not instrument shared libraries");
KNOB<UINT32>   KnobMaxThreads(KNOB_MODE_WRITEONCE,      "pintool",
    "threads", "100", "Maximum number of threads");

/* ===================================================================== */
/* Print Help Message                                                    */
/* ===================================================================== */

INT32 Usage()
{
    cerr <<
        "This pin tool computes a dynamic register/memory pattern mix profile\n"
        "\n";

    cerr << KNOB_BASE::StringKnobSummary();

    cerr << endl;

    return -1;
}

/* ===================================================================== */
/* Global Variables */
/* ===================================================================== */
UINT32 MaxNumThreads = 1;


typedef UINT64 COUNTER;


typedef enum {
    PATTERN_INVALID,
    PATTERN_MEM_RW,
    PATTERN_MEM_R,
    PATTERN_MEM_W,
    PATTERN_NO_MEM,
    PATTERN_NO_MEM_LIES,
    PATTERN_LAST
} pattern_t;


char const * 
pattern_t2str(pattern_t x)
{
   switch(x) {
      case PATTERN_INVALID: return "INVALID";
      case PATTERN_MEM_RW: return "MEM_RW";
      case PATTERN_MEM_R: return "MEM_R";
      case PATTERN_MEM_W: return "MEM_W";
      case PATTERN_NO_MEM: return "NO_MEM";
      case PATTERN_NO_MEM_LIES: return "NO_MEM_LIES";
      case PATTERN_LAST: return "LAST";
   }
   assert(0);
   /* NOTREACHED */
   return 0;
}


typedef struct 
{
    COUNTER pattern[PATTERN_LAST];
} STATS;

STATS GlobalStats;

class BBLSTATS
{
  public:
    BBLSTATS(UINT16 * stats)
              : _stats(stats)
    {
        _counter = new COUNTER[MaxNumThreads];
        memset(_counter,0,sizeof(COUNTER)*MaxNumThreads);
    };

    //array of uint16, one per instr in the block, 0 terminated
    const UINT16 * _stats; 

    // one ctr per thread to avoid runtime locking at the expense of memory
    COUNTER* _counter;

};

list<const BBLSTATS*> statsList;


//////////////////////////////////////////////////////////

PIN_LOCK lock;
UINT32 numThreads = 0;

VOID ThreadStart(THREADID threadid, CONTEXT *ctxt, INT32 flags, VOID *v)
{
    GetLock(&lock, threadid+1);
    numThreads++;
    ReleaseLock(&lock);
    
    ASSERT(numThreads <= MaxNumThreads, "Maximum number of threads exceeded\n");
}

/* ===================================================================== */

VOID ComputeGlobalStats()
{
    for(UINT32 i=0;i<PATTERN_LAST;i++)
        GlobalStats.pattern[i] = 0;

    // We have the count for each bbl and its stats, compute the summary
    for (list<const BBLSTATS*>::iterator bi = statsList.begin(); bi != statsList.end(); bi++)
        for (const UINT16 * stats = (*bi)->_stats; *stats; stats++)
            for(UINT32 thd = 0 ; thd < numThreads; thd++)
                GlobalStats.pattern[*stats] += (*bi)->_counter[thd];
    
}

/* ===================================================================== */


/* ===================================================================== */

VOID docount(COUNTER * counter, THREADID tid)
{
    counter[tid]++;
}

INT32 RecordRegisters(BBL bbl, 
                      UINT16 * stats, 
                      UINT32 max_stats)
{
    UINT32 count = 0;
    
    for (INS ins = BBL_InsHead(bbl); INS_Valid(ins); ins = INS_Next(ins))
    {
        if (count >= max_stats)
        {
            cerr << "Too many stats in this block" << endl;
            exit(1);
        }
        bool rmem = INS_IsMemoryRead(ins) || INS_HasMemoryRead2(ins);
        bool wmem = INS_IsMemoryWrite(ins);
        bool rw_mem = rmem & wmem;
        if (rw_mem)
            stats[count++] = PATTERN_MEM_RW;
        else if (rmem)
            stats[count++] = PATTERN_MEM_R;
        else if (wmem)
            stats[count++] = PATTERN_MEM_W;
        else if (INS_SegmentRegPrefix(ins) != REG_INVALID())
            stats[count++] = PATTERN_NO_MEM_LIES;
        else 
            stats[count++] = PATTERN_NO_MEM;
    }

    stats[count++] = 0;
    
    return count;
}


    

/* ===================================================================== */

VOID Trace(TRACE trace, VOID *v)
{
    const RTN rtn = TRACE_Rtn(trace);
    
    if (! RTN_Valid(rtn))
        return;
    
    const SEC sec = RTN_Sec(rtn);
    ASSERTX(SEC_Valid(sec));
    
    const IMG img = SEC_Img(sec);
    ASSERTX(IMG_Valid(img));
    
    if ( KnobNoSharedLibs.Value() && IMG_Type(img) == IMG_TYPE_SHAREDLIB)
        return;
    
    for (BBL bbl = TRACE_BblHead(trace); BBL_Valid(bbl); bbl = BBL_Next(bbl))
    {
        // Record the registers into a dummy buffer so we can count them
#define MAX_STATS_PER_BLOCK (128*1024)
        UINT16 buffer[MAX_STATS_PER_BLOCK];
        INT32 count = RecordRegisters(bbl, buffer, MAX_STATS_PER_BLOCK);
        ASSERTX(count < MAX_STATS_PER_BLOCK);
        
        // Summarize the stats for the bbl in a 0 terminated list
        // This is done at instrumentation time
        UINT16 * stats = new UINT16[count];

        memcpy(stats, buffer, count * sizeof(UINT16));

        // Insert instrumentation to count the number of times the bbl is executed
        BBLSTATS * bblstats = new BBLSTATS(stats);
        INS_InsertCall(BBL_InsHead(bbl), IPOINT_BEFORE, AFUNPTR(docount), 
                       IARG_PTR, bblstats->_counter,
                       IARG_THREAD_ID,
                       IARG_END);

        // Remember the counter and stats so we can compute a summary at the end
        statsList.push_back(bblstats);
    }
}


/* ===================================================================== */
VOID EmitPerThreadStats(ostream* out)
{
    *out << std::setprecision(4) << showpoint;

    for(UINT32 thd = 0 ; thd < numThreads; thd++)
    {
        STATS ThreadStats;
        for(UINT32 i=0;i<PATTERN_LAST;i++)
            ThreadStats.pattern[i] = 0;

        for (list<const BBLSTATS*>::iterator bi = statsList.begin(); bi != statsList.end(); bi++)
            for (const UINT16 * stats = (*bi)->_stats; *stats; stats++)
                ThreadStats.pattern[*stats] += (*bi)->_counter[thd];

        COUNTER total = 0;
        for (int i = PATTERN_INVALID+1; i < PATTERN_LAST; i++)
            total += ThreadStats.pattern[i];
        
        *out << "Thread " << thd << endl;
        for (int i = PATTERN_INVALID+1; i < PATTERN_LAST; i++)
            *out << ljstr(pattern_t2str(static_cast<pattern_t>(i)),15) 
                 << decstr( ThreadStats.pattern[i],12)
                 << "\t"
                 << std::setw(10)
                 << 100.0*ThreadStats.pattern[i]/total
                 << std::endl;
        *out << endl;
    }
    
}

static std::ofstream* out = 0;

VOID Fini(int, VOID * v)
{   
    ComputeGlobalStats();

    *out <<
        "#\n"
        "#pattern-type count percent\n"
        "#\n";
    
    *out << "All Threads" << endl;
    COUNTER total = 0;
    for (int i = PATTERN_INVALID+1; i < PATTERN_LAST; i++)
        total += GlobalStats.pattern[i];

    *out << std::setprecision(4) << showpoint;
    for (int i = PATTERN_INVALID+1; i < PATTERN_LAST; i++)
        *out << ljstr(pattern_t2str(static_cast<pattern_t>(i)),15) 
             << decstr( GlobalStats.pattern[i],12)
             << "\t"
             << std::setw(10)
             << 100.0*GlobalStats.pattern[i]/total
             << std::endl;

    *out<< endl;

    EmitPerThreadStats(out);

    *out << "# eof" << endl;
    
    out->close();
}

/* ===================================================================== */
/* Main                                                                  */
/* ===================================================================== */

int main(int argc, CHAR *argv[])
{
    PIN_InitSymbols();

    if( PIN_Init(argc,argv) )
    {
        return Usage();
    }
    MaxNumThreads = KnobMaxThreads.Value();
    out = new std::ofstream(KnobOutputFile.Value().c_str());

    PIN_AddThreadStartFunction(ThreadStart, 0);

    TRACE_AddInstrumentFunction(Trace, 0);

    PIN_AddFiniFunction(Fini, 0);

    // Never returns

    PIN_StartProgram();
    
    return 0;
}

/* ===================================================================== */
/* eof */
/* ===================================================================== */
